Image processing system, image processing apparatus, and method of controlling image processing apparatus

ABSTRACT

Attachment of a USB memory is sensed and whether the USB memory can be recognized or not is determined based on data information output from the USB memory. When the USB memory cannot be recognized, an emulation transition screen is displayed. Thereafter, when an instruction to start transition to an emulation mode is given, an emulation mode transition instruction signal and an IP address of an MFP on a network are output. Receiving the input of the emulation mode transition instruction signal, an emulation mode start-up/end unit starts up the emulation mode.

This application is based on Japanese Patent Application No. 2008-160108 filed with the Japan Patent Office on Jun. 19, 2008, the entire content of which is hereby incorporated by reference,

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates particularly to an image processing system including an image processing apparatus including a USB (Universal Serial Bus) connector to which a USB device can be attached.

2. Description of the Related Art

In recent years, a memory card or the like representing a removable external storage device for storing image data or the like has widely been used in a widely used portable information terminal (PDA) (Personal Data Assistance), a digital camera or the like.

In addition, an MFP (Multi Function Peripheral) capable of forming an image based on image data stored in the external storage device has widely been used.

For example, Japanese Laid-Open Patent Publication No. 2001-157011 discloses a technique that can reduce time required before start of image formation when a removable external storage device is attached.

In addition, Japanese Laid-Open Patent Publication No. 2001-138584 also proposes a technique of using an empty area of a removable external storage device as a work memory during printing, and various methods for use have been proposed.

Meanwhile, in recent years, a USB memory has widely been used as a removable external storage device, and data security measures have recently become important. As one exemplary measure, a USB memory provided not only with a data area but also with an application area for storing an authentication application for authenticating a user prior to permitting access to the data area in the USB memory (hereinafter, referred to as authentication application), so that the authentication application stored in the application area is used for authentication for unlocking to allow access thereto, has been introduced.

For example, a USB memory complying with U3 specifications set forth by SanDisk Corporation (hereinafter also referred to as a U3 memory) is available.

For example, as described above, in an example where a U3 memory is divided into a data area and an application area where an authentication application is stored and data in the data area cannot be accessed unless authentication processing using the authentication application is performed for unlocking, access such as data write in the data area subsequent to unlocking cannot be made unless the authentication application stored in the application area within the U3 memory is started up and the user is authenticated by entering a password or the like.

Here, when such a U3 memory is attached to an MFP, an authentication application stored in the application area should be started up. In many cases, however, the authentication application is adapted to a general-purpose OS (Operating System) generally used in a PC (Personal Computer) (such as WINDOWS®) but not adapted to an embedded OS mounted on the MFP (such as VXWORKS®).

Accordingly, the authentication application within the U3 memory cannot be started up. Namely, access such as data write to the data area within the U3 memory cannot be made and that U3 memory cannot be made use of.

SUMMARY OF THE INVENTION

The present invention was made to solve the above-described problems, and an object of the present invention is to provide an image processing system capable of accessing a removable external storage device storing an application not adapted to an OS mounted on an image processing apparatus when the external storage device is attached to the image processing apparatus.

An image processing system according to one aspect of the present invention includes an image processing apparatus and an external terminal device connected to the image processing apparatus through a network. The image processing apparatus includes a connector to which a removable external storage device is attachable, a determination unit for determining whether the external storage device is recognizable to the image processing apparatus, based on information output from the external storage device attached to the connector, a display, an operation portion for accepting user's operation input, an emulation control unit for causing, when the determination unit determines that the external storage device is unrecognizable to the image processing apparatus, the display and the operation portion to emulate a display function and an operation function of the external terminal device, in order to remotely operate the external terminal device capable of recognizing the external storage device, a scanner for obtaining image data by scanning a document, and a write control unit capable of performing processing for writing data in the external storage device. The emulation control unit includes an emulation mode transition unit for switching to an emulation mode in which the display and the operation portion are caused to emulate the display function and the operation function of the external terminal device when the determination unit determines that the external storage device is unrecognizable to the image processing apparatus, and a data input and output control unit for transmitting and receiving data to and from the external terminal device. The data input and output control unit outputs information output from the external storage device to the external terminal device, outputs the image data obtained by the scanner to the external terminal device, and outputs the image data input via the external terminal device to the write control unit for performing processing for writing data in the external storage device.

Preferably, the data input and output control unit further outputs to the external terminal device, an application program included in the external storage device.

In particular, the application program serves for subjecting the image data to prescribed processing. The data input and output control unit receives input of the image data that has been subjected to the prescribed processing in the external terminal device.

An image processing apparatus according to one aspect of the present invention includes: a connector to which a removable external storage device is attachable; a determination unit for determining whether the external storage device is recognizable to the image processing apparatus, based on information output from the external storage device attached to the connector; a display; an operation portion for accepting user's operation input; an emulation control unit for causing, when the determination unit determines that the external storage device is unrecognizable to the image processing apparatus, the display and the operation portion to emulate a display function and an operation function of an external terminal device, in order to remotely operate the external terminal device connected via a network that is capable of recognizing the external storage device; a scanner for obtaining image data by scanning a document; and a write control unit capable of performing processing for writing data in the external storage device. The emulation control unit includes a data input and output control unit for transmitting and receiving data to and from the external terminal device. The data input and output control unit outputs information output from the external storage device to the external terminal device, outputs the image data obtained by the scanner to the external terminal device, and outputs the image data input via the external terminal device to the write control unit in order to perform processing for writing data in the external storage device.

A method of controlling an image processing apparatus according to one aspect of the present invention including a connector to which a removable external storage device is attachable, a display, and an operation portion for accepting user's operation input, includes the steps of: determining whether the external storage device is recognizable to the image processing apparatus, based on information output from the external storage device attached to the connector; causing, when it is determined in the determining step that the external storage device is unrecognizable to the image processing apparatus, the display and the operation portion to emulate a display function and an operation function of an external terminal device, in order to remotely operate the external terminal device connected via a network that is capable of recognizing the external storage device; outputting information output from the external storage device to the external terminal device; obtaining image data by scanning a document; outputting the obtained image data to the external terminal device; accepting input of the image data input via the external terminal device; and writing the image data input via the external terminal device in the external storage device.

According to the image processing apparatus of the present invention, when the external storage device is unrecognizable to the image processing apparatus, the emulation control unit performs processing for remotely operating the external terminal device so that the external storage device can be accessed, and processing for writing data in the external storage device can be performed by outputting image data obtained by the scanner to the external terminal device and outputting the image data input via the external terminal device to the write control unit.

The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram illustrating an image processing system according to an embodiment of the present invention.

FIG. 2 is a functional block diagram of an MFP representing an image processing apparatus according to the embodiment of the present invention.

FIG. 3 is a diagram illustrating a configuration of an operation panel portion in the MFP according to the embodiment of the present invention.

FIG. 4 is a functional block diagram of a server according to the embodiment of the present invention.

FIG. 5 is a schematic diagram illustrating a configuration of a U3 memory according to the embodiment of the present invention.

FIG. 6 is a flowchart illustrating processing for executing an emulation mode when a USB memory complying with the U3 specifications according to the embodiment of the present invention is attached to the MFP.

FIG. 7 is a diagram illustrating an example where an emulation mode transition screen according to the embodiment of the present invention is displayed on an operation display.

FIG. 8 is a diagram illustrating an operation screen displayed on the operation display based on operation screen information according to the embodiment of the present invention.

FIG. 9 is a flowchart illustrating processing for starting up an application stored in the U3 memory according to the embodiment of the present invention.

FIG. 10 is a diagram illustrating an example where a program start-up screen is displayed on the operation display.

FIG. 11 is a flowchart illustrating processing for user's password entry.

FIG. 12 is a diagram illustrating a flow of processing for performing Scan-to-USB memory processing according to the embodiment of the present invention in the emulation mode.

FIG. 13 is a flowchart illustrating application expansion processing according to the embodiment of the present invention.

FIG. 14 is an exemplary diagram illustrating a scan selection screen on the operation display.

FIG. 15 is a diagram illustrating a USB memory selection screen shown when a “Scan to USB” button is selected.

FIG. 16 is an exemplary diagram showing an “advanced” screen of the scan selection screen shown when input of application information is accepted and the application expansion processing is performed.

FIG. 17 is a flowchart illustrating end of the emulation mode according to the embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

An embodiment of the present invention will be described hereinafter with reference to the drawings. In the description below, the same part and component have the same reference characters allotted. Their label and function are also assumed as identical.

An image processing system according to an embodiment of the present invention will be described with reference to FIG. 1.

Referring to FIG. 1, the image processing system according to the embodiment of the present invention includes an MFP 1 and a server 1200 connected to MFP 1 through a network 1000.

MFP 1 is a digital multifunctional machine having a copy function, a scanner function, and a printer function, and various functions are implemented by an embedded OS. On the other hand, in server 1200, various functions are implemented by a general-purpose OS, unlike the embedded OS in MFP 1.

MFP 1 has ports 20 serving as connection means, to which a plurality of (in the present embodiment, three) external storage devices complying with the USB specifications are removably attached, and a USB device including a USB memory, which is a removable external storage device having a USB interface, is connected to this port 20 so that bidirectional data transmission and reception between the external storage device and MFP 1 can be carried out. Port 20 is also hereinafter referred to as a USB port or a USB connector.

In the present embodiment, for example, a case where a USB interface is adopted and a USB memory is connected to the port will be described, however, the interface is not limited to the USB. Connection of other removable external storage devices such as a CF (Compact Flash) card is also similarly applicable. In addition, in the present embodiment, a case where a U3 memory representing a USB memory complying with the USB specifications is attached to port 20 as the USB memory will be described.

MFP 1 includes an operation panel portion 10. Operation panel portion 10 has a plurality of keys 11 a, an operation portion 11 for accepting input of data such as various instructions, characters, numerics, and the like provided by user's operation of key 11 a, and an operation display 12 implemented by liquid crystals or the like, for display of an instruction menu for the user or information on an obtained image.

MFP 1 includes a scanner 13 for obtaining image data by optically scanning a document and a printer 14 for printing an image on a recording sheet based on the image data. In addition, a feeder portion 17 for feeding a document to scanner 13 is provided on an upper surface of a main body of MFP 1, a paper feed portion 18 for supplying a recording sheet to printer 14 is provided in a lower portion thereof, and a tray 19 where a recording sheet having an image printed by printer 14 is provided in a central portion thereof.

In addition, a communication portion 65 for transmitting and receiving image data to and from external equipment, a storage portion 26 for storing a control program used in each unit for controlling the main body and necessary data such as image data, and the like are provided in the main body of MFP 1.

Moreover, communication portion 65 is connected to server 1200 representing the external equipment connected to network 1000.

A configuration of server 1200 will be described later.

Operation display 12 provides display of various modes and others, and various settings and the like can be made in accordance with display contents and the like. In addition, operation portion 11 is used for user's various inputs. These components function as a main part of the user interface.

Scanner 13 obtains image data by photoelectrically reading image information such as a photograph, a character, graphics, and the like from a document. The obtained image data (density data) is converted to digital data, subjected to well-known various types of image processing, and sent to printer 14 if an image is to be printed, or transmitted to other external equipment connected to the network through communication portion 65 if image transmission processing is to be performed. Alternatively, the obtained image data is stored in the USB memory in accordance with a prescribed format, as will be described later.

Printer 14 serves to print an image on a recording sheet, based on image data obtained by scanner 13, image data stored in a USB memory or the like representing a removable external storage device, or image data transmitted from external equipment.

Communication portion 65 transmits and receives data to and from server 1200 representing external equipment connected to network 1000 such as LAN (Local Area Network) or the Internet through the public switched telephone network. It is noted that communication established by MFP 1 through a network may be any of wire communication and wireless communication.

A functional block diagram of MFP 1 representing the image processing apparatus according to the embodiment of the present invention will be described with reference to FIG. 2.

Referring to FIG. 2, MFP 1 according to the embodiment of the present invention includes scanner 13 for converting a material such as a paper medium or the like into electronic data, storage portion 26 implemented, for example, by a hard disk (HDD), printer 14 for performing print processing, USB connector 20 for attaching each USB device, a USB device connection portion 5 for controlling connection between USB connector 20 and a USB device, operation panel portion 10 including the operation display, a control unit 30 for overall control of the MFP, and communication portion 65 for transmitting and receiving data to and from server 1200 representing external equipment through network 1000.

When the USB device is attached to USB connector 20, USB device connection portion 5 senses attachment and outputs attachment information on the attached device to control unit 30.

Each functional block of control unit 30 is implemented by reading an embedded OS and various software programs adapted to the embedded OS stored in storage portion 26.

Specifically, control unit 30 includes a scanner control unit 35 for controlling scanner 13, a printer control unit 45 for controlling printer 14, a USB control unit 60 for accessing the USB device attached to USB connector 20 through USB device connection portion 5, a panel control unit 70 for accepting display contents to be displayed on operation panel portion 10 and an operation input through operation panel portion 10, an emulation mode control unit 80 for performing processing for controlling an emulation mode which will be described later, and an overall control unit 50 for controlling these units above as a whole and instructing each unit to carry out a prescribed job in response to an operation instruction input from operation panel portion 10. It is noted that overall control unit 50 functions as the embedded OS.

In addition, emulation mode control unit 80 includes an emulation transition/end unit 85 for performing processing for making transition to the emulation mode and ending the emulation mode, an input data control unit 95 for receiving input data from external equipment through communication portion 65 and outputting the input data to overall control unit 50 when transition to the emulation mode is made, and an output data control unit 90 for transmitting the data input from overall control unit 50 to server 1200 representing the external equipment through communication portion 65 when transition to the emulation mode is made,

USB control unit 60 senses a device attached to USB connector 20 through USB device connection portion 5 and outputs information on the device to overall control unit 50.

Overall control unit 50 determines whether the device attached to USB connector 20 can be recognized or not, based on the information on that device output from USB control unit 60. When the device is recognized, access to the device is permitted. Specifically, for example, when a common USB memory is recognized, processing or the like for writing data such as image data obtained by scanner 13 can be performed by providing an instruction to access the USB memory through operation panel portion 10.

Emulation transition/end unit 85 outputs an instruction signal to communication portion 65 in order to perform processing for making transition to the emulation mode or processing for ending the emulation mode in accordance with an operation input through operation panel portion 10, and receives input of an instruction signal from server 1200 connected to the network through communication portion 65.

Input data control unit 95 receives input data input from external equipment through communication portion 65 and outputs the input data to overall control unit 50 when transition to the emulation mode is made. In addition, though the description will be provided later, when transition to the emulation mode is made, input data control unit 95 receives application information stored in the application area of the USB memory from server 1200 and outputs the application information to overall control unit 50.

Output data control unit 90 receives the input data input from overall control unit 50 and transmits the input data to server 1200 representing external equipment through communication portion 65 when transition to the emulation mode is made.

When transition to the emulation mode is made, emulation mode control unit 80 performs emulation processing by using input data control unit 95 and output data control unit 90 so as to emulate a function of server 1200, so that server 1200 can remotely be operated.

A configuration of operation panel portion 10 in MFP 1 according to the embodiment of the present invention will be described with reference to FIG. 3,

Referring to FIG. 3, a start key 201 is used for starting an operation such as copy/scan or the like. A numeric key 202 is used for entering a numeric value or the like such as the number of copies or a password which will be described later. A clear key 203 is used for clearing an entered numeric value and erasing stored image data.

A stop key 204 is used for indicating stop of a copy/scan operation. A panel reset key 205 is used for canceling a set mode and a job. In addition, when stop key 204 is pressed during processing for writing data into the USB device or during data printing, an operation to write data into the USB device or a data printing operation is stopped.

An emulation mode end button 223 is a button for indicating end of the emulation mode when the emulation mode is being executed.

In addition, a trackball 220 is a pointing device for moving a pointer 222 when pointer 222 is displayed on operation display 12.

Operation display 12 is provided with a touch panel 206 for display of various modes or for making setting or the like.

Through this touch panel 206, the user can make various settings in accordance with display contents on operation display 12. In addition, in a setting screen area 207 of touch panel 206, normally, buttons for basic/advanced setting that is made in a copy operation or a scanning operation are arranged. When each button is pressed, a screen layer for making detailed setting is displayed. It is noted that an operation as performed with touch panel 206 can be performed by moving pointer 222 with trackball 220 and then pressing, for example, start key 201.

In a job information screen area 208 of touch panel 206, job information provided to MFP 1 by that time point is displayed. Jobs are displayed in the order of execution. When an operation for canceling or modifying a specific job is to be performed, a job operation button 209 is selected and thereafter a job number button of interest is pressed. Through these operations, a job operation screen is displayed and an operation on a specific job can be permitted.

A copy key 210 and a scan key 211 are selection keys for setting whether MFP 1 should operate in any mode of a copier and a scanner.

When copy key 210 is pressed, MFP 1 can be used as a copier. A scanner operation cannot be performed in this state.

Alternatively, when scan key 211 is pressed, MFP 1 serves as a scanner. A copy operation cannot be performed in this state.

Copy key 210 and scan key 211 are mutually exclusive. Therefore, if one is selected, the other is automatically in a non-selected state.

Though the description will be provided later, in the emulation mode, an operation display screen of server 1200 is displayed on display 12.

A functional block diagram of server 1200 according to the embodiment of the present invention will be described with reference to FIG. 4.

Referring to FIG. 4, server 1200 according to the embodiment of the present invention includes an input portion 1209 such as a mouse or a keyboard, a display 1205 for displaying an operation display screen, a communication interface portion 1207 for transmitting and receiving data to and from outside through network 1000, a storage portion 1203 implemented, for example, by a hard disk (HDD), a USB connector 1220 which is a port for connecting, for example, a USB memory representing a removable external storage device, a USB device connection portion 1235 for controlling connection between USB connector 1220 and a USB device, and a control unit 1201 for overall control of server 1200.

When the USB device is attached to USB connector 1220, USB device connection portion 1235 senses attachment and outputs attachment information on the attached device to control unit 1201.

Each functional block of control unit 1201 is implemented by reading a general-purpose OS and various software programs adapted to the general-purpose OS stored in storage portion 1203.

Specifically, control unit 1201 includes a USB control unit 1260 for accessing the USB device attached to USB connector 1220 through USB device connection portion 1235, an input control unit 1213 for accepting an operation input through input portion 1209, a screen display control unit 1211 for controlling display processing or the like of display 1205, and an emulation mode control unit 1280 for performing processing for controlling an emulation mode which will be described later. It is noted that an overall control unit 1215 functions as the general-purpose OS.

In addition, emulation mode control unit 1280 performs processing for data transfer to/from emulation mode control unit 80 in MFP 1. Specifically, emulation mode control unit 1280 includes an emulation start-up/end unit 1290 for performing processing for starting up the emulation mode and ending the emulation mode, an input data control unit 1300 for receiving input data from MFP 1 representing external equipment through communication interface portion 1207 and outputting the input data to overall control unit 1215 when transition to the emulation mode is made, and an output data control unit 1285 for transmitting the data input from overall control unit 1215 to MFP 1 representing the external equipment through communication interface portion 1207 when transition to the emulation mode is made. In addition, though the description will be provided later, when transition to the emulation mode is made, output data control unit 1285 transmits the application information stored in the application area of the USB memory to MFP 1 representing external equipment through communication interface portion 1207.

USB control unit 1260 senses a device attached to USB connector 1220 through USB device connection portion 1235 and outputs information on the device to overall control unit 1215.

Overall control unit 1215 determines whether the device attached to USB connector 1220 can be recognized or not, based on the information on that device output from USB control unit 1260. When the device is recognized, access to the device is permitted. Specifically, for example, when a common USB memory is recognized, an instruction or the like to access the USB memory can be provided through input portion 1209 while viewing the operation display screen displayed on display 1205.

Emulation start-up/end unit 1290 outputs an instruction signal to MFP 1 connected to the network through communication interface portion 1207 for performing processing for starting up or ending the emulation mode and receives input of an instruction signal from MFP 1.

A configuration of a U3 memory according to the embodiment of the present invention will be described with reference to FIG. 5.

Referring to FIG. 5, in the present embodiment, a USB memory complying with the U3 specifications will be described by way of example. A USB memory 100 complying with the U3 specifications includes a memory portion 110 where data is stored, and memory portion 110 is divided into a data area and an application area. As described above, the application area can store an application complying with the U3 specifications, and an example where an authentication application is stored is shown here. In addition, other applications such as an encryption application for storing image data in the data area in an encrypted state, a compression application for storing image data in the data area in a compressed state, and an image format conversion application for converting a data format of image data are shown by way of example.

In the present embodiment, when the U3 memory is attached to USB connector 20, start-up data information of the authentication application which is an application complying with the U3 specifications is output.

In addition, the application in the USB memory complying with the U3 specifications is not adapted to the embedded OS but adapted to the general-purpose OS.

Processing for executing the emulation mode when the USB memory complying with the U3 specifications according to the embodiment of the present invention is attached to MFP 1 will be described with reference to FIG. 6.

Referring to FIG. 6, initially on MFP 1 side, attachment of the USB memory is sensed (step SI). Specifically, USB device connection portion 5 senses attachment of the U3 memory attached to USB connector 20. Then, receiving input of sensing information from USB device connection portion 5, USB control unit 60 outputs data information output from the U3 memory to overall control unit 50 through USB device connection portion 5. It is noted that the data information output from the U3 memory is stored in a not-shown memory.

Then, overall control unit 50 determines whether the USB memory can be recognized or not, based on the data information output from the USB memory (step S2). In step S2, when the USB memory can be recognized based on the data information output from the USB memory, overall control unit 50 performs processing for recognizing the USB memory (step S3). Specifically, when the attached USB memory was successfully recognized, overall control unit 50 performs prescribed registration processing or the like so that a job involved with the USB memory can be executed through operation panel portion 10.

On the other hand, when the USB memory could not be recognized in step S2, overall control unit 50 gives an instruction to panel control unit 70 so that an emulation mode transition screen is displayed on operation display 12 of operation panel portion 10. Thus, panel control unit 70 causes operation display 12 to display the emulation mode transition screen (step S4).

An example where the emulation mode transition screen according to the embodiment of the present invention is displayed on operation display 12 will be described with reference to FIG. 7.

Referring to FIG. 7, buttons 300 and 301 urging the user to perform a selection operation as to whether to make transition to the emulation mode or not are displayed, together with an indication that “USB memory cannot be recognized. Is transition to emulation mode to be made for recognition?” For example, when the user presses button 300, transition to the emulation mode is started. On the other hand, when button 301 is pressed, transition to the emulation mode is canceled. Specifically, when pressing of button 300 is sensed through panel control unit 70, overall control unit 50 instructs emulation mode control unit 80 to start transition to the emulation mode,

On the other hand, when pressing of button 301 is sensed through panel control unit 70, overall control unit 50 ends recognition processing regarding the attached USB memory. Namely, the device attached to the USB connector is processed as an unrecognizable device and access or the like is prohibited.

Referring again to FIG. 6, subsequent to step S4, whether an instruction for transition to the emulation mode has been input or not is then determined (step S5). Specifically, as described above, when button 300 for starting transition to the emulation mode in FIG. 7 is sensed and an instruction to start transition to the emulation mode is given from overall control unit 50 to emulation mode control unit 80, an instruction signal for transition to the emulation mode and an IP address of MFP 1 on the network are output (step S6).

Specifically, receiving the instruction to start transition to the emulation mode from panel control unit 70, emulation transition/end unit 85 outputs the instruction signal for transition to the emulation mode and the IP address to server 1200 connected to the network through communication portion 65. It is noted that an IP address of server 1200 connected to the network, which is a destination from communication portion 65, is registered in advance.

Then, on server 1200 side, input of the instruction signal for transition to the emulation mode and the IP address is accepted (step S7). Specifically, emulation start-up/end unit 1290 in emulation mode control unit 1280 provided on server 1200 side accepts input of the instruction signal for transition to the emulation mode and the IP address.

Then, receiving the input of the instruction signal for transition to the emulation mode, emulation start-up/end unit 1290 starts up the emulation mode (step S8). Specifically, an indication that the emulation mode is set is output to overall control unit 1215. As a result of this processing, overall control unit 1215 of server 1200 performs processing in the emulation mode.

Thereafter, processing for registering the input IP address of MFP 1 is performed (step S9). Specifically, the IP address of MFP 1 is registered as a data destination address in server 1200.

Then, a notification signal of emulation mode start-up completion is output (step S 10).

Specifically, emulation start-up/end unit 1290 outputs the notification signal of emulation mode start-up completion to MFP 1 through communication interface portion 1207 after the emulation mode is started up.

Thereafter, on MFP 1 side, input of the notification signal of emulation mode start-up completion is accepted (step S11). Specifically, emulation transition/end unit 85 in emulation mode control unit 80 provided on MFP 1 side accepts the input of the notification signal of emulation mode start-up completion.

Then, receiving the input of the notification signal of emulation mode start-up completion, emulation transition/end unit 85 starts execution of the emulation mode (step S12). Specifically, emulation transition/end unit 85 outputs an indication that the emulation mode is set to overall control unit 50. As a result of this processing, overall control unit 50 of MFP 1 performs processing in the emulation mode.

Then, emulation transition/end unit 85 outputs an instruction signal to start execution of the emulation mode to server 1200 through communication portion 65 (step S13).

Thereafter, emulation start-up/end unit 1290 in emulation mode control unit 1280 of server 1200 accepts input of the instruction signal to start execution of emulation (step S14).

Thereafter, processing for transferring operation screen information is performed (step S15),

Specifically, emulation start-up/end unit 1290 accepts the input of the instruction signal to start execution of emulation and outputs the instruction signal to overall control unit 1215. Receiving the input of the instruction signal to start execution of emulation, overall control unit 1215 instructs screen display control unit 1211 to output screen information on display contents similar to contents displayed on the operation screen of display 1205 (also referred to as operation screen information) to emulation mode control unit 1280. Then, output data control unit 1285 in emulation mode control unit 1280 transfers the operation screen information to MFP 1 through communication interface portion 1207.

Here, if the OS of server 1200 is a general-purpose OS and the OS of MFP 1 is an embedded OS, the type of OS is different. Therefore, overall control unit 50 of MFP 1 adapted to the embedded OS cannot perform the same processing using data the same as data on server 1200 side.

Therefore, output data control unit 1285 on the server side performs emulation processing so that the same processing as with the general-purpose OS can be performed with the embedded OS and transfers data to MFP 1.

Then, on MFP 1 side, input of the operation screen information is accepted (step S16).

Specifically, input data control unit 95 in emulation mode control unit 80 provided on MFP 1 side accepts input of the operation screen information,

Thereafter, operation display 12 of operation panel portion 10 displays the operation screen based on the operation screen information (step S17).

Specifically, receiving the operation screen information that has been subjected to emulation processing and output from input data control unit 95, overall control unit 50 outputs the operation screen information to panel control unit 70. Then, panel control unit 70 causes operation display 12 to display the operation screen based on the operation screen information.

The operation screen displayed on operation display 12 based on the operation screen information according to the embodiment of the present invention will be described with reference to FIG. 8.

Referring to FIG. 8, an example where the operation screen identical in contents to the operation screen displayed on display 1205 of server 1200 is displayed as display contents on operation display 12 is shown here. The user can freely operate pointer 222 on the operation screen by operating trackball 220 described above. The selection operation can be performed by using start key 201 in operation panel portion 10.

Namely, the operation screen the same as the operation screen displayed on display 1205 of server 1200 is shown on operation display 12 of MFP 1, and the user can operate pointer 222 with trackball 220 and perform the selection operation by using start key 201. According to the configuration of the present embodiment, as a result of emulation processing by emulation mode control units 80 and 1280, the functions of input portion 1209 and display 1205 of server 1200 can be emulated on operation panel portion 10 of MFP 1, so that server 1200 is remotely operated.

Specifically, emulation mode control units 80 and 1280 are used to emulate display 1205 so that the operation screen of server 1200 input through communication portion 65, that is, the operation screen displayed on display 1205 of server 1200, is displayed on operation display 12 of operation panel portion 10.

In addition, input portion 1209 may be emulated so that the operation instruction input the same as the operation instruction input provided through input portion 1209 of server 1200 can be provided by operating operation panel portion 10.

As described above, if the OS of server 1200 is a general-purpose OS and the OS of MFP 1 is an embedded OS, the type of OS is different. Therefore, the operation instruction input through operation panel portion 10 on MFP 1 side cannot be processed as it is with the use of the general-purpose OS on server 1200 side.

Therefore, an operation instruction input signal output from output data control unit 90 in emulation mode control unit 80 on MFP 1 side is subjected to emulation processing so that the operation instruction input adapted to the embedded OS can be processed with the general-purpose OS in input data control unit 1300 in emulation mode control unit 1280 of server 1200 and then output to overall control unit 1215.

In the present embodiment, an example where emulation control unit 1280 on server 1200 side performs emulation processing in transmission so that processing by the embedded OS on MFP 1 side can be performed and performs emulation processing in reception so that the instruction signal from the embedded OS can be processed by the general-purpose OS is described. In contrast, however, emulation control unit 80 on MFP 1 side may perform emulation processing in transmission so that processing by the general-purpose OS on server 1200 side can be performed and perform emulation processing in reception so that the instruction signal from the general-purpose OS can be processed by the embedded OS.

Processing for starting up an application stored in the U3 memory described in connection with FIG. 5 in the emulation mode according to the embodiment of the present invention will now be described.

Processing for starting up an application stored in the U3 memory according to the embodiment of the present invention will be described with reference to FIG. 9.

Referring to FIG. 9, overall control unit 50 determines whether execution of the emulation mode has been started or not (step S20). Specifically, as described above, in the flow in FIG. 6, emulation transition/end unit 85 accepts the input of the notification signal of emulation mode start-up completion (step S11) and thereafter execution of the emulation mode is started (step S12). Overall control unit 50 performs processing in the emulation mode in accordance with an instruction from emulation transition/end unit 85.

Thereafter, when execution of the emulation mode is started, overall control unit 50 performs processing for transferring the data information output from the U3 memory (step S21). In the flowchart in FIG. 6 above, an example where after execution of the emulation mode is started, the instruction signal to start execution of emulation is output, input of the operation screen information is accepted, and the operation screen is displayed on operation display 12 has been described. Meanwhile, in parallel to this processing, the processing in step S21 above is performed. It is noted that the processing in step S21 above may also be performed after the processing in the flow in FIG. 6 above ends. Specifically, when attachment of the USB memory is sensed in step S1 in FIG. 6, since the data information output from the U3 memory is stored in a not-shown memory, processing for transferring the data information output from the U3 memory and stored in that memory is performed. Alternatively, as USB control unit 60 may perform processing for accessing the U3 memory attached to USB connector 20, overall control unit 50 may obtain again the data information output from the U3 memory and processing for transferring the data information output from the U3 memory and obtained again may also be performed. Here, overall control unit 50 outputs the data information output from the U3 memory to output data control unit 90 in emulation mode control unit 80.

Receiving input of the data information output from the U3 memory and output from overall control unit 50, output data control unit 90 transmits the data information to server 1200 connected to the network through communication portion 65.

Then, on server 1200 side, the input of the data information in the USB memory is accepted (step S22). Specifically, the data information is input to input data control unit 1300 in emulation mode control unit 1280 through communication interface portion 1207.

Then, the data information input to input data control unit 1300 is output to overall control unit 1215.

Then, receiving the input of the data information in the U3 memory from input data control unit 1300, overall control unit 1215 performs processing for recognizing the USB memory (step S23).

In the present embodiment, overall control unit 1215 on server 1200 side functions as the general-purpose OS and it is adapted to the application in the USB memory complying with the U3 specifications.

Therefore, in the present embodiment, the U3 memory can be recognized by overall control unit 1215,

Specifically, receiving the input of the data information output from the U3 memory, overall control unit 1215 determines that the U3 memory was virtually attached to server 1200 in the emulation mode and it can recognize the U3 memory.

Then, when overall control unit 1215 successfully recognizes the U3 memory virtually attached to server 1200 in the emulation mode, overall control unit 1215 performs prescribed registration processing or the like so that a job involved with that USB memory can be executed.

Then, after overall control unit 1215 performs the processing for recognizing the U3 memory, overall control unit 1215 performs program start-up processing (step S24).

In the present embodiment, when the U3 memory is attached to USB connector 20 as described above, start-up data information of the authentication application which is an application complying with the U3 specifications is output.

Therefore, overall control unit 1215 performs program start-up processing based on the start-up data information.

Thereafter, processing for transferring information on a program start-up screen is performed (step S25).

Specifically, receiving a result of program start-up processing by overall control unit 1215, screen display control unit 1211 outputs the information on the program start-up screen for display on display 1205 to emulation mode control unit 1280,

Output data control unit 1285 in emulation mode control unit 1280 outputs the information on the program start-up screen from screen display control unit 1211 to MFP 1 connected to the network through communication interface portion 1207.

Thereafter, on MFP 1 side, input of the information on the program start-up screen transferred from server 1200 side is accepted (step S26). Specifically, input data control unit 95 in emulation mode control unit 80 accepts the input of the information on the program start-up screen.

Thereafter, the program start-up screen is displayed on operation display 12 of operation panel portion 10 (step S27).

An example where the program start-up screen is displayed on operation display 12 will be described with reference to FIG. 10.

Referring to FIG. 10, on the operation screen displayed on operation display 12 described in connection with FIG. 8, the program start-up screen is further displayed as the start-up data information of the authentication application stored in the U3 memory is started up.

In the present embodiment, a start-up screen for entering a password for log-in is shown as the program start-up screen.

In a lower right portion of operation display 12, a program start-up icon 224 is generated and displayed based on the start-up data information of the U3 memory.

As described above, server 1200 can remotely be operated through operation panel portion 10 of MFP 1 in accordance with emulation mode control unit 80 on MFP 1 side and emulation mode control unit 1280 on server 1200 side, and the state is such that virtual attachment of the U3 memory to server 1200 is recognized in the emulation mode. Processing on server 1200 side for causing operation panel portion 10 to emulate input portion 1209 of server 1200 will mainly be described hereinafter.

Processing for password entry will now be described.

Processing for user's password entry will be described with reference to FIG. 11.

Referring to FIG. 11, a password is entered (step S30). Specifically, a numeric password can be entered by using numeric key 202 of operation panel portion 10. In FIG. 10, a keyboard input screen may be displayed so that input through a keyboard serving as input portion 1209 of server 1200 can also be made also on operation display 12 of MFP 1, although not shown. Then, a password may be entered by using the keyboard input screen,

Thereafter, overall control unit 1215 determines whether a log-in key in operation panel portion 10 has been entered or not (step S31). Specifically, password entry and log-in entry provided in operation panel portion 10 are sensed and overall control unit 1215 determines whether log-in entry has been provided or not. Then, when the log-in entry was provided, overall control unit 1215 performs authentication processing (step S32). Then, overall control unit 1215 determines whether authentication processing indicates OK or not based on password entry (step S33). When the authentication processing indicates OK, unlocking processing is performed (step S34). Then, the process ends (end).

On the other hand, when the authentication processing indicates NG in step S33, a re-entry screen is displayed (step S35). Here, the re-entry screen is displayed on operation display 12 of operation panel portion 10. Specifically, as described above, the program start-up screen described in connection with FIG. 10 is displayed again on operation display 12 and processing from step S30 described above is repeated as the user enters again a password.

In such processing, when authentication indicates OK in step S33, unlocking processing is performed in step S34 and access such as data write to the data area described in connection with FIG. 5 can be made.

Through such processing, for example, regarding the USB memory having the data area and the application area such as a U3 memory, the application stored in the application area is developed on server 1200 side and server 1200 is remotely operated, so that authentication processing can be performed. Namely, as a result of unlocking, access to the U3 memory is permitted.

An example where scan-to-USB memory processing for storing image data scanned by using the scanning function of MFP 1 in the U3 memory is performed will now be described.

A flow of processing for performing scan-to-USB memory processing according to the embodiment of the present invention in the emulation mode will be described with reference to FIG. 12.

Referring to FIG. 12, initially, whether scan key 211 has been pressed or not is determined (step S40). Specifically, when scan key 211 in operation panel portion 10 is pressed, a scan mode is executed (step S41). Specifically, panel control unit 70 senses pressing of scan key 211 and outputs a result of sensing to emulation mode control unit 80 through overall control unit 50. Then, receiving the result of sensing, emulation mode control unit 80 executes the scan mode in the emulation mode.

Then, application expansion processing is performed (step S42).

Application expansion processing according to the embodiment of the present invention will be described with reference to FIG. 13.

Referring to FIG. 13, in the present embodiment, an example where an application stored in the application area of the U3 memory is added will be described.

Initially, whether the scan mode has been executed or not is determined (step S70).

Emulation mode control unit 80 senses pressing of scan key 211 as described in connection with FIG. 12 and makes determination based on whether input of the result of sensing has been received or not.

Then, when the scan mode has been executed, emulation mode control unit 80 outputs the result of sensing from output data control unit 90. Namely, emulation mode control unit 80 outputs to server 1200, an indication that an instruction to carry out scanning has been given (step S71).

On server 1200 side, input data control unit 1300 accepts input of the result of sensing of the instruction to execute the scan mode (step S72). Input data control unit 1300 outputs the result of sensing to overall control unit 1215.

Thereafter, overall control unit 1215 performs processing for accessing the USB memory in the emulation mode (step S73).

Then, overall control unit 1215 determines whether there is an application available in the accessed USB memory, of which function can be expanded in the scan mode (step S74). Overall control unit 1215 can make such determination by registering in advance an application of which function can be expanded in the scan mode and by determining whether an application matches with that application. Alternatively, determination can also be made by providing a dedicated area for storing an application of which function is expanded in the scan mode in the application area of the USB memory. Any means may be adopted, so long as overall control unit 1215 can identify an application within the application area of the USB memory as an application of which function can be expanded in the scan mode.

When it is determined in step S74 that an application of which function can be expanded in the scan mode is available, application information is obtained (step S75).

Then, processing for transferring the obtained application information is performed (step S76). Specifically, output data control unit 1285 in emulation mode control unit 1280 transfers the application information to MFP 1.

Input data control unit 95 in emulation control unit 80 of MFP 1 accepts input of the application information (step S77).

Then, input data control unit 95 outputs the application information to overall control unit 50.

Receiving the input of the application information, overall control unit 50 performs application expansion display processing (step S78). Then, the process ends (end). Though the description will be provided later, in the scan mode, overall control unit 50 generates, based on input of the application information which is an expanded function, an icon on the “advanced” screen in the scan selection screen so that the expanded function can be selected.

Referring again to FIG. 12, after the application expansion processing in step S42, the scan selection screen in which buttons for basic/advanced settings to be made in the scanning operation are arranged is displayed on operation display 12 (step S43).

The scan selection screen on operation display 12 will be described with reference to FIG. 14.

Referring to FIG. 14, operation display 12 is provided with touch panel 206 for display of various modes or for making setting or the like as described above. Here, buttons for basic/advanced settings to be made in the scanning operation are arranged.

When each button is pressed, a screen layer for detailed setting is displayed. For example, here, a command button in an example where a “destination” button has been pressed is shown. Specifically, the user can selectively determine a transmission method for transmitting image data obtained through the scanning operation. Specifically, a state where selection from three transmission methods of an “E-mail communication” mode where scanned image data is transmitted via E-mail, a “file transmission” mode where scanned image data is transmitted through an FTP (File Transfer Protocol) server, and a “Scan to USB” mode where scanned image data is stored in the USB memory can be made is shown. When “E-mail communication” or “file transmission” is selected, a destination address or the like should be input.

In addition, an “advanced” button 238, an “image adjustment” button 240, and a “file format” button 242 are provided, and various settings in the scanning operation can be made. Though the description will be provided later, specifically, when “advanced” button 238 is pressed, a screen allowing selection of an expanded function is displayed based on the input of the application information described above. Alternatively, when “image adjustment” button 240 is pressed, execution of an application for image edition such as a “noise removal” function incorporated in MFP 1 on the image data obtained in the scanning operation can be selected. Alternatively, when “file format” button 242 is pressed, a format of a transmission file (JPEG (Joint Photographic Experts Group), TIFF (Tagged Image File Format), PDF (Portable Document Format), and the like) can be selected,

In the present embodiment, an example where a “Scan to USB” button 236 is selected in the emulation mode in a screen 234 in which “destination” has been selected will be described.

A USB memory selection screen shown when “Scan to USB” button 236 is selected will be described with reference to FIG. 15.

Referring to FIG. 15, here, a screen 250 for selecting a USB memory is displayed as a screen layer when “Scan to USB” button 236is pressed. When “Scan to USB” button 236 is pressed and while the emulation mode is set, an indication that the emulation mode is set is given and a USB memory in the emulation mode is displayed so that selection thereof can be made. In the present embodiment, an example where an icon button 251 of “USB1” is in the emulation mode and displayed as selectable is shown. As an icon button 252 of “USB2” and an icon button 253 of “USB3” connected to other USB connectors cannot be used, they are inactive.

When the user presses and selects icon button 251 of USB1 and presses an “OK” button 256, the U3 memory in the present embodiment which is the destination of image data in the “Scan to USB” mode can be selected. Such setting that inactive icon button 252 of “USB2” or icon button 253 of “USB3” is selected to transmit image data to the selected USB memory may also be made.

Referring again to FIG. 12, whether input of USB memory selection and input of an instruction to carry out scanning have been provided or not is determined (step S44). Specifically, in the screen for selecting the USB memory described in connection with FIG. 15, whether icon button 251 of the USB in the emulation mode is pressed to select the U3 memory or not and whether start key 202 has been pressed or not are determined.

When the input of the instruction to carry out scanning has been provided in step S44, that is, when start key 201 is pressed, processing for carrying out scanning is performed (step S45). Specifically, as described in connection with FIG. 1, a document is fed from feeder portion 17 to scanner 13, and scan data which is image data is obtained by optically reading the fed document (step S46).

Then, scanner control unit 35 outputs the scan data to emulation mode control unit 80 through overall control unit 50.

Then, output data control unit 90 in emulation mode control unit 80 also outputs, together with the scan data, write information including an instruction to write in the USB memory in emulation which is the data write target (step S47).

If “image adjustment” button 240 described in connection with FIG. 14 is selected and for example, what is called a “noise removal” function or the like incorporated in advance in MFP 1 is selected, the scan data output from output data control unit 90 is scan data that has been subjected to image processing or the like. Similarly, when “file format” button 242 is pressed and such a format as “JPEG”, “TIFF” or “PDF” is designated, the data is converted to that designated format.

In the present embodiment, an expanded function that is not incorporated in advance in MFP 1 can be selected by using “advanced” button 238 described in connection with FIG. 14. When the expanded function is selected, information on selection of the expanded function is included in the write information described above.

An exemplary diagram showing an “advanced” screen 234# of the scan selection screen shown when input of the application information is accepted and the application expansion processing is performed will be described with reference to FIG. 16.

Referring to FIG. 16, an example where icon buttons of “encryption”, “compression” and “image format conversion” are provided based on the application information stored in the application area of the U3 memory described in connection with FIG. 5 is shown here. An “encryption” button 244, a “compression” button 246, and an “image format conversion” button 248 are shown by way of example.

By selecting the icon button, information on selection of the expanded function is included in the write information and an instruction to select execution of an application which will be described later can be issued.

Referring again to FIG. 12, thereafter, on the server side, input data control unit 1300 in emulation mode control unit 1290 accepts input of the scan data and the write information (step S48).

Then, input data control unit 1300 outputs the scan data and the write information to overall control unit 1215.

Overall control unit 1215 determines whether the write information includes an instruction to execute an application on the scan data, based on the write information (step S49). Specifically, whether the information on selection of the expanded function is included in the write information or not is determined.

When the information on selection of execution of an application on the scan data is included in the write information in step S49, overall control unit 1215 executes the application on the scan data (step S50). For example, when the information on selection of the encryption application in the application area of the U3 memory described in connection with FIG. 5 is included, overall control unit 1215 starts up the encryption application in the U3 memory and subjects the obtained scan data to encryption processing. Similarly, when the information on selection of the compression application is included, the obtained scan data is subjected to compression processing. Similarly, when an instruction to execute the image format conversion application, for example, information on selection of compact PDF, is included, processing for converting the image format of the obtained scan data to compact PDF is performed.

Thereafter, overall control unit 1215 outputs as write data, the scan data or the scan data on which the application was executed to output data control unit 1285, in order to write the data in the U3 memory which is the data write target and represents the USB memory that has made transition to the emulation mode. Output data control unit 1285 performs processing for transferring the write data to emulation mode control unit 80 (step S51).

On the other hand, when the instruction to execute the application on the scan data is not included in the write information in step S49, the process proceeds to step S51.

Thereafter, input data control unit 95 in emulation mode control unit 80 accepts input of write data from output data control unit 1285 (step S52).

Then, receiving the input of the write data, input data control unit 95 outputs the write data to overall control unit 50.

Specifically, overall control unit 50 receives the write data subjected to emulation processing and output from input data control unit 95, and outputs the write data to USB control unit 60.

Then, USB control unit 60 performs processing for writing the write data in the USB memory complying with the U3 specifications (step S53). The process thus ends (end).

According to this technique, even when the USB memory complying with the U3 specifications that stores the application not adapted to the OS incorporated in the MFP is attached to the MFP, the scan data can be stored in that USB memory.

In addition, data on which the application was executed can be stored in the data area of the USB memory by using the application stored in the application area of the USB memory complying with the U3 specifications. Therefore, an application not incorporated in MFP 1 but included in the application area of the USB memory complying with the U3 specifications can easily be provided.

End of the emulation mode will now be described.

The end of the emulation mode according to the embodiment of the present invention will be described with reference to FIG. 17.

Referring to FIG. 17, emulation transition/end unit 85 in emulation mode control unit 80 determines whether an emulation mode end button has been pressed or not (step S60). Specifically, whether emulation mode end button 223 in operation panel portion 10 described in connection with FIG. 3 has been pressed or not is determined.

When emulation mode end button 223 is pressed, emulation transition/end unit 85 outputs an instruction to end the emulation mode (step S61).

On the server side, input of the instruction to end the emulation mode is accepted (step S62). Specifically, emulation start-up/end unit 1290 in emulation mode control unit 1280 accepts the input of the instruction to end the emulation mode.

Then, emulation start-up/end unit 1290 performs emulation mode end processing (step S63). Specifically, an indication that the emulation mode ends is output to overall control unit 1215. As a result of this processing, overall control unit 1215 of server 1200 ends the emulation mode and performs normal processing.

Then, emulation transition/end unit 85 outputs notification of completion of emulation mode end (step S64).

On the MFP side, emulation transition/end unit 85 accepts input of notification of completion of emulation mode end (step S65). Then, on the MFP side, the emulation mode end processing is performed (step S66). Specifically, emulation transition/end unit 85 outputs to overall control unit 50, an indication that the emulation mode ends. As a result of this processing, overall control unit 50 of MFP 1 ends the emulation mode and performs normal processing.

As a result of this processing, a normal MFP operation screen described in connection with FIG. 3 is displayed on operation display 12 of panel control unit 10.

According to the technique in the embodiment of the present invention, for example, when the MFP side cannot recognize the USB memory complying with the U3 specifications, specifically, when an application stored in the USB memory complying with the U3 specifications is not adapted to the embedded OS of the MFP, transition to the emulation mode is made, data is transferred to the server side to have the server recognize the USB memory complying with the U3 specifications, and the MFP side remotely operates the server. Processing for accessing the USB memory complying with the U3 specifications can thus be performed. Specifically, the scan data read in the scan mode can be transferred to the server, the scan data is transferred from the server as write data, and USB control unit 60 can perform processing for writing the data in the USB memory complying with the U3 specifications.

The present technique is also similarly applicable to another USB memory, for example, not recognized by the embedded OS but recognized only by the general-purpose OS, without limited to the USB memory complying with the U3 specifications.

In the present embodiment, an MFP including a plurality of connectors as USB connectors has been described, however, the MFP is not particularly limited as such. In particular, the number of connectors is not limited.

In the present embodiment, a configuration including trackball 220 in display 12 has been described, however, a configuration may include other various pointing devices, without limited to the trackball. For example, a touch panel may be used to attain similar functions.

An image processing apparatus according to the present invention is not limited to an MFP, and any image processing apparatus such as a printer or a facsimile machine may be adopted. Regarding a controller for controlling the image processing apparatus, a program causing a computer to function and carry out control as described in the flow above may be provided. Such a program may be recorded in a computer-readable recording medium such as a flexible disc, a CD-ROM (Compact Disk-Read Only Memory), a ROM (Read Only Memory), a RAM (Random Access Memory), and a memory card, to be attached to a computer, and may be provided as a program product. Alternatively, a program may be provided as recorded in a recording medium such as a hard disk contained in a computer. Alternatively, a program may be provided by downloading through a network.

A program according to the present invention may invoke a necessary module from among program modules provided as a part of the operation system (OS) of the computer at prescribed timing in prescribed sequences and to cause the module to perform processing. Here, the program itself does not include the module above but processing is performed in cooperation with the OS. Such a program not including a module may also be encompassed in the program according to the present invention.

In addition, the program according to the present invention may be provided as incorporated as a part of another program. In this case as well, the program itself does not include the module included in another program but processing is performed in cooperation with another program. Such a program incorporated in another program may also be encompassed in the program according to the present invention.

A provided program product is installed in a program storage portion such as a hard disk and executed. It is noted that the program product includes a program itself and a recording medium recording a program.

Although the present invention has been described and illustrated in detail, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, the scope of the present invention being interpreted by the terms of the appended claims. 

What is claimed is:
 1. An image processing system, comprising: an image processing apparatus; and an external terminal device connected to said image processing apparatus through a network; said image processing apparatus including a connector to which a removable external storage device, having an application program recorded thereon, is attachable, a determination unit for determining whether the application program recorded on a removable external storage device attached to said connector is recognizable by said image processing apparatus based on information output from said removable external storage device, a display, an operation portion for accepting a user's operation input, an emulation control unit for causing, when said determination unit determines that the application program recorded on the removable external storage device is not recognizable by said image processing apparatus because of a difference between an operating system to which said external storage device is adapted and an operating system of said image processing apparatus, said display and said operation portion to emulate a display function and an operation function of said external terminal device in order to remotely operate said external terminal device capable of recognizing said application program recorded on the removable external storage device, a scanner for obtaining image data by scanning a document, and a write control unit capable of performing processing for writing data in said external storage device, said emulation control unit including an emulation mode transition unit for switching to an emulation mode in which said display and said operation portion are caused to emulate the display function and the operation function of said external terminal device when said determination unit determines that the application program recorded on the removable external storage device is not recognizable by said image processing apparatus because of the difference between the operating system to which said external storage device is adapted and the operating system of said image processing apparatus, and a data input and output control unit for transmitting and receiving data to and from said external terminal device, and said data input and output control unit outputting information output from said removable external storage device to said external terminal device, outputting said image data obtained by said scanner to said external terminal device, and outputting image data input via said external terminal device to said write control unit for performing processing for writing data in said removable external storage device.
 2. The image processing system according to claim 1, wherein said data input and output control unit further outputs to said external terminal device, the application program included in said removable external storage device.
 3. The image processing system according to claim 2, wherein said application program serves for subjecting said image data to prescribed processing, and said data input and output control unit receives input of the image data that has been subjected to the prescribed processing in said external terminal device.
 4. The image processing apparatus according to claim 1, wherein said application program is a encryption application, compression application, format conversion application, or transmission application.
 5. An image processing apparatus, comprising: a connector to which a removable external storage device having an application program recorded thereon is attachable; a determination unit for determining whether the application program recorded on the removable external storage device is recognizable by said image processing apparatus, based on information output from said removable external storage device attached to said connector; a display; an operation portion for accepting user's operation input; an emulation control unit for causing, when said determination unit determines that the application program recorded on the removable external storage device is not recognizable by said image processing apparatus because of a difference between the operating system to which said external storage device is adapted and the operating system of said image processing apparatus, said display and said operation portion to emulate a display function and an operation function of an external terminal device, in order to remotely operate said external terminal device connected via a network that is capable of recognizing said application program recorded on the removable external storage device; a scanner for obtaining image data by scanning a document; and a write control unit capable of performing processing for writing data in said removable external storage device, said emulation control unit including a data input and output control unit for transmitting and receiving data to and from said external terminal device, and said data input and output control unit outputting information output from said removable external storage device to said external terminal device, outputting said image data obtained by said scanner to said external terminal device, and outputting image data input via said external terminal device to said write control unit in order to perform processing for writing data in said external storage device.
 6. The image processing apparatus according to claim 5, wherein said application program is a encryption application, compression application, format conversion application, or transmission application.
 7. A method of controlling an image processing apparatus, said image processing apparatus including a connector to which a removable external storage device having an application program recorded thereon is attachable, a display, and an operation portion for accepting user's operation input, comprising the steps of: determining whether the application program recorded on the removable external storage device is recognizable by said image processing apparatus, based on information output from said removable external storage device attached to said connector; when a determination is made in said determining step that the external storage device is not recognizable by said image processing apparatus because of a difference between the operating system to which said external storage device is adapted and the operating system of said image processing apparatus, causing said display and said operation portion to emulate a display function and an operation function of an external terminal device, in order to remotely operate said external terminal device connected via a network that is capable of recognizing said application program recorded on the removable external storage device; outputting information output from said removable external storage device to said external terminal device; obtaining image data by scanning a document; outputting obtained said image data to said external terminal device; accepting input of said image data input via said external terminal device; and writing said image data input via said external terminal device in said external storage device.
 8. The method of controlling an image processing apparatus of claim 7, wherein said application program is a encryption application, compression application, format conversion application, or transmission application. 